As motor vehicle automation increases, frequent transitions of control between automation and driver will take place. This thesis investigates if keeping drivers in the loop during conditionally automated driving can improve motorists’ driving behavior when taking back control. Three empirical studies were performed in state-of-the-art driving simulators and in a custom Wizard of Oz vehicle which safely emulated automated driving on the road. The results show that keeping drivers in the loop can improve take-over behavior and drivers may become faster at taking over across several rides
AbstractA driving simulator study was designed to investigate drivers’ ability to resume control fro...
Automated automobiles will be on our roads within the next decade but the role of the driver has not...
The recent literature concerning autonomous vehicles has demonstrated them to be capable of bringing...
As motor vehicle automation increases, frequent transitions of control between automation and driver...
In this paper we investigated if keeping the driver in the perception–action loop during automated d...
The goal of this on the road driving study was to investigate how drivers adapt their behavior when ...
In this paper we investigated if keeping the driver in the perception–action loop during automated d...
In the current study we investigated if drivers of conditionally automated vehicles can be kept in t...
This desktop driving simulator study investigated the effect of engagement in a reading task during...
This desktop driving simulator study investigated the effect of engagement in a reading task during ...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
Automated driving is becoming increasingly popular and is often proposed as a solution to commonly k...
A driving simulator study was designed to investigate drivers’ ability to resume control from a high...
The aim of this research was to investigate the nature of the out-of-the-loop (OoTL) phenomenon in h...
AbstractA driving simulator study was designed to investigate drivers’ ability to resume control fro...
Automated automobiles will be on our roads within the next decade but the role of the driver has not...
The recent literature concerning autonomous vehicles has demonstrated them to be capable of bringing...
As motor vehicle automation increases, frequent transitions of control between automation and driver...
In this paper we investigated if keeping the driver in the perception–action loop during automated d...
The goal of this on the road driving study was to investigate how drivers adapt their behavior when ...
In this paper we investigated if keeping the driver in the perception–action loop during automated d...
In the current study we investigated if drivers of conditionally automated vehicles can be kept in t...
This desktop driving simulator study investigated the effect of engagement in a reading task during...
This desktop driving simulator study investigated the effect of engagement in a reading task during ...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
Automated driving is becoming increasingly popular and is often proposed as a solution to commonly k...
A driving simulator study was designed to investigate drivers’ ability to resume control from a high...
The aim of this research was to investigate the nature of the out-of-the-loop (OoTL) phenomenon in h...
AbstractA driving simulator study was designed to investigate drivers’ ability to resume control fro...
Automated automobiles will be on our roads within the next decade but the role of the driver has not...
The recent literature concerning autonomous vehicles has demonstrated them to be capable of bringing...